anto44
Member
- Messages
- 1,832
- Location
- ireland
Yeah way faster, that's a 75mm hole in 10mm stainless steel, to drill the whole way through would take an age and be serious hard on the holesaw, doing it this way saves time and money but still gives really nice fit up for welding.How come you don't just continue on with the holesaw Anto? Faster with the plasma?
I've had a few battles with injectors over the years but this one took the biscuit. Ended up making this contraption to get it out. Its a bit of 2" box with 2 bits of 10mm plate welded on either end and a hole cut in the side for an air hammer to fit in. Its bolted to a fitting i made up that screws into the top of the injector in place of the solenoid. It's not pretty but did the job.
View attachment 146956
View attachment 146957
There's a lot of similarish products on the market for removing injectors. This was my version based on what I had lying around to make it out of and I was under serious pressure to get the job done. I'm going to build another better built version to replace itThis needs to be patented before the Chinese get their mits on the idea....
Brilliant solution!
Imagine if you knew someone with lasers that could cut themI used this technique to make up this flange in 10mm stainless, for this I made a 1mm cut in from each side before cutting.
View attachment 192685
That'd be too easy, ya know I like to do it the hard way.Imagine if you knew someone with lasers that could cut them
That'd be too easy, ya know I like to do it the hard way.
I used this technique to make up this flange in 10mm stainless, for this I made a 1mm cut in from each side before cutting.
View attachment 192685
Pretty simply if it's bigger it'll flow more, with bends just try use the largest centre line radius that will fit in place.looking good @anto44
How do you work out exhaust pulse, flow rate, and how tight you can get away with a radius on a bend